مسار بولونيا التعليمي

جامعة ميسان – كلية الهندسة – قسم هندسة النفط

المرحلة : الأولى – الفصل الدراسي : الأول – المادة الدراسية : الميكانيك الهندسي

Engineering Mechanics
Basic
PE 114
6
150

The specific learning outcomes of an Engineering Mechanics module may vary depending on the educational institution and the level of study. However, here are some common learning outcomes that are typically associated with Engineering Mechanics courses:

Knowledge and understanding of fundamental principles: Students should demonstrate a solid understanding of the fundamental principles of mechanics, including Newton’s laws of motion, equilibrium conditions, conservation of energy and momentum, and their application to mechanical systems.

Problem-solving skills: Students should be able to apply the principles of mechanics to solve engineering problems. They should demonstrate the ability to analyze and model the behavior of mechanical systems, calculate forces, moments, and stresses, and apply appropriate equations and formulas to solve problems.

Ability to analyze static equilibrium: Students should be able to analyze and determine the equilibrium of rigid bodies under the action of forces and moments. They should be able to draw and interpret free-body diagrams, calculate reactions at supports, and solve problems related to trusses, beams, and frames.

Understanding of dynamics: Students should have a good understanding of the motion of particles and rigid bodies under the influence of forces and moments. They should be able to analyze the kinematics and kinetics of mechanical systems, calculate acceleration and velocity, and apply the laws of motion to solve dynamic problems.

Competence in structural analysis: Students should be able to analyze and determine internal forces and stresses in structural elements such as beams, columns, and trusses. They should be able to calculate axial loading, bending moments, and shear forces, and understand the relationships between applied loads, reactions, and structural behavior.

Application of engineering principles to real-world problems: Students should be able to apply their knowledge of Engineering Mechanics to practical engineering problems. They should demonstrate the ability to identify and define engineering problems, analyze and evaluate different solutions, and make informed decisions based on engineering principles and considerations.

Effective communication and teamwork: Students should be able to communicate their ideas, analysis, and solutions effectively, both in written and verbal forms. They should also be able to work collaboratively in teams, demonstrating effective teamwork and the ability to contribute to group discussions and projects.

These learning outcomes aim to provide students with a solid foundation in Engineering Mechanics, preparing them for further study or professional practice in engineering disciplines that require a strong understanding of mechanics, such as civil engineering, mechanical engineering, aerospace engineering, and more.

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